Taufiq Hassan
School of Environmental Science and Engineering,
Gwangju Institute of Science and Technology,
Gwangju, South Korea.
E-mail: taufiq@gist.ac.kr
Phone: +82-1063124105
Personal info​
Name: Md. Taufiq Hassan Mozumder
Father’s Name: Md. Shahjahan Mozumder
Mother’s Name: Hasina Begum
Nationality: Bangladeshi
Sex: Male
Date of Birth: 30th November, 1989
Languages
FORTRAN
GRADS scripts
Unix Shell scripts
JAVA
Python
Skills
Education​
MS in Environmental Science and Engineering
​Sep. 2013 - Feb. 2015
BSc in Chemical Engineering
2006 - 2012
Bangladesh University of Engineering and Technology
Gwangju Institute of Science and Technology
Current CGPA: 4.16/4.5
Research Experience​
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I have compiled WRF-ARW for the Climate Modeling laboratory.
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Used WPS for geographical input and ARWpost for use in GRADS.
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Worked with different versions and ran it for different study projects.
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Wrote a course paper on cyclone tracking using WRF model.
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MPI activated simulations.
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Implemented WRF for Korean Peninsula with NCEP, ECMWF and MERRA data.
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In order to facilitate the use of WRF for research work, compilation and running scripts (shell) were made.
• Weather Reserch and Forecasting (WRF) Model
MATLAB
GRADS
SPSS
Parallel Computing
R
Linux
MICROSOFT OFFICE
HYSIS
VM
2010 - present
2010 - present
• CMAQ (Community Multi-scale Air Quality) Model
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Building CMAQ ver. 5 for laboratory and benchmarking.
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SMOKE installation and VERDI for visulization.
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Documentation
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Scripting for easier access for all lab members.
• MACR (Monte-Carlo Aerosol Cloud Radiation) Model
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Used Global MACR as in Choi and Chung (2014) to validate Analytical equation.
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Used to estimate global aerosol forcing with single scattering albedo and asymmetric parameter.
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MPI implemented simulations in 88 CPUs.
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Estimation for both cloudy-sky and cloud free conditions.
• Others
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Worked with CAM 3.0 (Community Atmosphere Model).
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Experience with parallel computing.
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Compiling MOVES (Motor Vehicular Emission Simulator) into UNIX system for laboratory research.
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Experience with different file formats (NetCDF, HDF5 etc).
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Experience in data analysis, management, conversion and storage.
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BSc thesis work at Nuclear Science and Technology (INST) as a research student.
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For more information and codes, visit here.
MS Thesis
I have derived and investigated an analytical equation that is primarily derived by Charlson et al. (1991) for purely scattering aerosols and Chylek and Wong (1995) for absorbing aerosols. I used global MACR (Monte-Carlo Aerosol Cloud Radiation) model. In order to do so I have displayed how well the model global aerosol forcing output data fits and analyzed the coefficients of the linear equations to estimate realistic values of atmospheric transmittance and surface albedo. I have demonstrated that the simulations against asymmetric parameter and single scattering albedo has given reasonable trends. Under the premises that the equation is realistic only if the coefficients are realistic and the model fits well, I have come to conclude that this equation under certain assumptions is reasonable only for cloud-free conditions.